Endocrinology Division, Department of Medicine, Diabetes Center, Escola Paulista de Medicina - Universidade Federal de São Paulo, São Paulo, Brazil.
Immunology Division, Microbiology, Immunology and Parasitological Department, Escola Paulista de Medicina - Universidade Federal de São Paulo, São Paulo, Brazil.
Front Endocrinol (Lausanne). 2020 Sep 23;11:555685. doi: 10.3389/fendo.2020.555685. eCollection 2020.
Enteroviruses are main candidates among environmental agents in the development of type 1 diabetes (T1D). However, the relationship between virus and the immune system response during T1D pathogenesis is heterogeneous. This is an interesting paradigm and the search for answers would help to highlight the role of viral infection in the etiology of T1D. The current data is a cross-sectional study of affected and non-affected siblings from T1D multiplex-sib families to analyze associations among T1D, genetic, islet autoantibodies and markers of innate immunity. We evaluated the prevalence of anti-virus antibodies (Coxsackie B and Echo) and its relationships with human leukocyte antigen (HLA) class II alleles, TLR expression (monocytes), serum cytokine profile and islet β cell autoantibodies in 51 individuals (40 T1D and 11 non-affected siblings) from 20 T1D multiplex-sib families and 54 healthy control subjects. The viral antibody profiles were similar among all groups, except for antibodies against CVB2, which were more prevalent in the non-affected siblings. TLR4 expression was higher in the T1D multiplex-sib family's members than in the control subjects. TLR4 expression showed a positive correlation with CBV2 antibody prevalence (S: 0.45; = 0.03), CXCL8 (S: 0.65, = 0.002) and TNF-α (S: 0.5, = 0.01) serum levels in both groups of T1D multiplex-sib family. Furthermore, within these families, there was a positive correlation between HLA class II alleles associated with high risk for T1D and insulinoma-associated protein 2 autoantibody (IA-2A) positivity (odds ratio: 38.8; = 0.021). However, the HLA protective haplotypes against T1D prevalence was higher in the non-affected than the affected siblings. This study shows that although the prevalence of viral infection is similar among healthy individuals and members from the T1D multiplex-sib families, the innate immune response is higher in the affected and in the non-affected siblings from these families than in the healthy controls. However, autoimmunity against β-islet cells and an absence of protective HLA alleles were only observed in the T1D multiplex-sib members with clinical disease, supporting the importance of the genetic background in the development of T1D and heterogeneity of the interaction between environmental factors and disease pathogenesis despite the high genetic diversity of the Brazilian population.
肠道病毒是 1 型糖尿病(T1D)发病机制中环境因素的主要候选者。然而,病毒与免疫系统在 T1D 发病过程中的反应之间的关系是异质的。这是一个有趣的范例,寻找答案将有助于突出病毒感染在 T1D 发病机制中的作用。目前的数据是对 T1D 多基因家族中受影响和未受影响的兄弟姐妹进行的横断面研究,以分析 T1D、遗传、胰岛自身抗体和固有免疫标志物之间的关系。我们评估了 Coxsackie B 和 Echo 抗病毒抗体的流行率及其与人类白细胞抗原(HLA)II 类等位基因、TLR 表达(单核细胞)、血清细胞因子谱和胰岛β细胞自身抗体的关系在 20 个 T1D 多基因家族的 51 名个体(40 名 T1D 和 11 名未受影响的兄弟姐妹)和 54 名健康对照者中。除了针对 CVB2 的抗体在未受影响的兄弟姐妹中更为常见外,所有组的病毒抗体谱均相似。与对照组相比,T1D 多基因家族成员的 TLR4 表达更高。TLR4 表达与 CBV2 抗体的流行呈正相关(S:0.45; = 0.03),CXCL8(S:0.65, = 0.002)和 TNF-α(S:0.5, = 0.01)血清水平在 T1D 多基因家族的两组中均如此。此外,在这些家族中,与 T1D 和胰岛素瘤相关蛋白 2 自身抗体(IA-2A)阳性相关的 HLA II 类等位基因与 HLA 保护性单倍型之间存在正相关(比值比:38.8; = 0.021)。然而,与 T1D 患病率相关的 HLA 保护性单倍型在未受影响的兄弟姐妹中比受影响的兄弟姐妹更高。本研究表明,尽管健康个体和 T1D 多基因家族成员之间的病毒感染流行率相似,但这些家族中的受影响和未受影响的兄弟姐妹的固有免疫反应高于健康对照组。然而,仅在具有临床疾病的 T1D 多基因家族成员中观察到针对β胰岛细胞的自身免疫和缺乏保护性 HLA 等位基因,这支持了遗传背景在 T1D 发展中的重要性以及尽管巴西人群具有高度遗传多样性,但环境因素与疾病发病机制之间相互作用的异质性。
